Expanding seal anchor for single incision surgery

ABSTRACT

The present disclosure relates to a surgical anchoring apparatus for use during a minimally invasive surgical procedure. The surgical anchoring apparatus includes a body member and a dilator element at least partially positionable therein. The body member includes a grip segment adapted for manual engagement by a user and an expandable section having a plurality of expandable segments and a plurality of cam surfaces. The grip segment resiliently transitions between a first or normal state and a second state in which the grip segment is at least partially inverted. The expandable section&#39;s cam surfaces are configured to engage a distal end of the dilator element upon its insertion such that the expandable section may transition from an initial condition to an expanded condition in which the body member is secured or anchored within an incision in tissue.

CROSS REFERENCE TO RELATED APPLICATION

This application is a continuation of U.S. patent application Ser. No.14/310,024 filed Jun. 20, 2014, which is a continuation of U.S. patentapplication Ser. No. 12/244,127 filed Oct. 2, 2008, now U.S. Pat. No.8,795,326, which claims benefit of and priority to U.S. ProvisionalApplication No. 60/997,844 filed Oct. 5, 2007, and the disclosures ofeach of the above-identified applications are hereby incorporated byreference in their entirety.

BACKGROUND

1. Technical Field

The present disclosure relates to a device, and a method of use thereof,for facilitating access to a patient's internal cavities during asurgical procedure. More particularly, the present disclosure relates toa surgical anchoring apparatus adapted for insertion into an incision intissue, and for the sealed reception of one or more surgical objects, soas to form a substantially fluid-tight seal with both the tissue and thesurgical object, or objects.

2. Background of the Related Art

Today, many surgical procedures are performed through small incisions inthe skin, as compared to the larger incisions typically required intraditional procedures, in an effort to reduce trauma to the patient andrecovery time. Generally, such procedures are referred to as“endoscopic”, unless performed on the patient's abdomen, in which casethe procedure is referred to as “laparoscopic”. Throughout the presentdisclosure, the term “minimally invasive” should be understood toencompass both endoscopic and laparoscopic procedures. During a typicalminimally invasive procedure, surgical objects, such as surgical accessdevices, e.g. trocar and cannula assemblies, or endoscopes, are insertedinto the patient's body through the incision in tissue.

In generally, prior to the introduction of the surgical object into thepatient's body, insufflation gasses are used to enlarge the areasurrounding the target surgical site to create a larger, more accessiblework area. Accordingly, the maintenance of a substantially fluid-tightseal at the incision and about the surgical object, or objects, isdesirable so as to prevent the escape of the insufflation gases and thedeflation or collapse of the enlarged surgical work area.

To this end, various apparatus, including valves, seals and the like,are used during the course of minimally invasive procedures and arewidely known in the art. However, a continuing need exists for aself-anchoring apparatus that can be inserted directly into the incisionin tissue and that can accommodate a variety of surgical objects whilemaintaining the integrity of an insufflated workspace.

SUMMARY

In one aspect of the present disclosure, a surgical anchoring apparatusincludes a body member defining a longitudinal body passage extendingalong a longitudinal axis thereof, a dilator element at least partiallypositionable within the longitudinal passage of the body member and aseal mounted with respect to the dilator element.

The body member includes an expandable section adapted to transitionbetween a first initial condition and a second expanded condition. Theexpandable section of the body member includes a plurality of expandablesegments separated by slots, which may be substantially longitudinal,and a plurality of internal cam surfaces that are obliquely arrangedwith respect to the longitudinal axis defined by the body member. In oneembodiment, each of the expandable segments includes an internal camsurface. The expandable section further includes an outer helical threadadapted to facilitate the advancement of the body member within tissuewhen the body member is in the first initial condition.

The body member also includes a grip segment adapted for manualengagement by a user. The grip segment depends radially outwardlyrelative to the longitudinal axis of the body member. The grip segmentis adapted to transition between a normal state and an at leastpartially inverted state. The grip segment may comprise an elastomericmaterial, and have a peripheral flange that is adapted to contact tissuewhen the grip segment is in the normal state. The peripheral flange maybe adapted to establish a vacuum seal with the tissue upon transition ofthe grip segment from the at least partially inverted state to thenormal state.

The dilator element is dimensioned to cause the expandable section totransition to the second expanded condition when inserted into theexpandable section to thereby facilitate securement of the body memberrelative to tissue. The dilator element defines a longitudinal dilatorpassage for the reception and passage of a surgical object. The dilatorelement is dimensioned to contact the cam surfaces during insertion ofthe dilator element within the longitudinal passage of the body memberto move the expandable segments at least radially outwardly relative tothe longitudinal axis and cause the transition of the expandable sectionto the second expanded condition.

The seal is adapted to establish a substantial sealing relation with thesurgical object received within the dilator element. In alternateembodiments, the seal may include a gel material or a self healing foammaterial.

These and other features of the valve disclosed herein will become morereadily apparent to those skilled in the art from the following detaileddescription of various embodiments of the present disclosure.

BRIEF DESCRIPTION OF THE DRAWINGS

Various embodiments of the present disclosure are described hereinbelowwith references to the drawings, wherein:

FIG. 1 is a side perspective view of a surgical anchoring apparatus inaccordance with the principles of the present disclosure illustrating abody member and a dilator element.

FIG. 2 is a side cross-sectional view of the surgical anchoringapparatus of FIG. 1 with the dilator element removed from the bodymember.

FIG. 3 is a side cross-sectional view of the surgical anchoringapparatus of FIG. 2 with the dilator element inserted in the bodymember.

FIG. 4 is a top perspective view of the surgical anchoring apparatus ofFIG. 1 illustrating details of the seal.

FIG. 5 is a side plan view of the body member of the surgical anchoringapparatus illustrating the grip segment in a first inverted state.

FIG. 6 is a side plan view of the body member of the surgical anchoringapparatus illustrating the grip segment in a second normal state.

FIG. 7 is a side plan view of the surgical anchoring apparatusillustrating the dilator element inserted through the body member, andan expandable section of the body member in a second, expandedcondition.

DETAILED DESCRIPTION OF THE EMBODIMENTS

In the drawings and in the description which follows, in which likereference numerals identify similar or identical elements, the term“proximal” will refer to the end of the apparatus which is closest tothe clinician during the use thereof, while the term “distal” will referto the end which is furthest from the clinician, as is traditional andknown in the art.

With reference now to FIGS. 1-2, a surgical anchoring apparatus 1000 isdisclosed for use in a surgical procedure, e.g. a minimally invasiveprocedure. Anchoring apparatus 1000 includes a body member 10 and adilator element 300 at least partially positionable therein. Body member10 defines a longitudinal axis “A” and a longitudinally extendingpassage 12 and includes a grip segment 100 and an expandable section200.

Grip segment 100 depends radially outward relative to the longitudinalaxis “A” of body member 10 and includes an outer surface 102 having anaperture 104 formed therein that is dimensioned to receive dilatorelement 300. Outer surface 102 extends outwardly from aperture 104 to aperipheral flange 106. Peripheral flange 106 is adapted to contact andestablish a substantially vacuum quality seal with tissue “T” (see FIGS.6-7), as discussed below.

Grip segment 100 is adapted for manual engagement by a user and toresiliently transition between a first or normal state (FIGS. 1-4) and asecond state (FIG. 5). In the first state, outer surface 102 of gripsegment 100 exhibits a substantially distal curvature in whichperipheral flange 106 is directed distally. In the second state, gripsegment 100 is at least partially inverted such that at least a portionof outer surface 102 exhibits a substantially proximal curvature suchthat peripheral flange 106 is directed proximally. In this state, gripsegment 100 is more aptly configured for manual engagement by a user tofacilitate the insertion of expandable section 200 into an incision 14(FIG. 5), as discussed in further detail below. It should be noted thatengagement by a user is also possible when grip segment 100 is in thefirst state. Grip segment 100 may be formed of any suitablebiocompatible material that is sufficiently flexible to permit gripsegment 100 to resiliently transition between the first and secondstates, including but not being limited to elastomeric materials.

Expandable section 200 extends distally from grip segment 100 and is insubstantial alignment with aperture 104 of grip segment 100 such thatdilator element 300 may pass through aperture 104 and into expandablesection 200 upon insertion. At its distal end 202, expandable section200 defines an opening 204 that is dimensioned to allow a distal end 304of dilator element 300 to pass therethrough. Expandable section 200 isadapted to transition from a first, or initial condition (FIG. 6) to asecond, or expanded condition (FIG. 7).

Expandable section 200 defines a length “L” that is sufficient toprovide percutaneous access to a patient's underlying cavities, organsand the like (not shown). Expandable section 200 includes a plurality ofexpandable segments 206, a plurality of internal cam surfaces 208 and anouter helical thread 210.

Expandable segments 206 are defined by two or more slots 212. In oneembodiment, slots 212 extend in a substantially longitudinal manner.However, alternate configurations for slots 212 are not beyond the scopeof the present disclosure. Upon the transition of expandable section 200from the initial condition to the expanded condition, expandablesegments 206 are splayed radially outward, as discussed in furtherdetail below.

Internal cam surfaces 208 are obliquely arranged with respect to thelongitudinal axis “A” defined by body member 10. Internal cam surfaces208 are configured to engage a tapered outer surface 308 of dilatorelement 300 upon its insertion into longitudinal passage 12 of bodymember 10 to facilitate the transition of expandable section 200 fromthe initial condition to the expanded condition, as discussed in furtherdetail below. In one embodiment, each expandable segment 206 includes aninternal cam surface 208. Outer helical thread 210 is disposed on theouter surface of expandable section 200. Helical thread engages tissue“T” upon the insertion of expandable section 200 into incision 14 so asto facilitate the distal advancement of body member 10. In addition,helical thread 210 may assist in the anchoring of body member 10 withintissue “T”.

Expandable section 200 may be formed of any suitable biocompatiblematerial that is sufficiently resilient to permit resilient expandablesection 200 to resiliently transition between the initial and expandedconditions thereof.

In its first, or normal condition, expandable section 200 is configuredfor insertion into incision 14 and defines a first diameter “D₁”. Uponthe insertion of dilator element 300, a distal end 304 thereof engagescam surfaces 208. As dilator element 300 is advanced distally throughlongitudinal passage 12, its distal end 304 forces cam surfaces 208, andexpandable segments 206, outwardly to thereby transition expandablesection 200 into its expanded condition. In its expanded condition,expandable section 200 defines a second, larger diameter

Dilator element 300 has a proximal end 302 that includes a seal 400 anda gripping portion 306 that is configured for grasping by a user duringthe distal advancement of dilator element 300 through body member 10.

Dilator element 300 defines a longitudinal passage 308 that extendstherethrough from its proximal end 302 to its distal end 304 where anopening 310 is defined. Longitudinal passage 308 defines a diameter “D”and is configured to removably receive one or more surgical objects “I”(FIG. 7), e.g. a trocar, endoscope or surgical stapler. The diameter “D”of longitudinal passage 308 may range between about 3 mm to about 15 mm,or may be substantially within the range of about 5 mm to about 12 mm.However, the use of surgical objects having substantially larger andsmaller diameters is contemplated herein, as is a dilator element 300defining a longitudinal passage 308 with a substantially larger orsmaller diameter “D” so as to accommodate such surgical objects. In oneembodiment, the longitudinal dilator passage 308 is divided into aplurality of individual lumens (not shown) separated by at least oneseptum. Each of the individual lumens may be of either substantiallysimilar or substantially different dimensions and are each configured toreceive a surgical object.

Dilator element 300 may be formed of any biocompatible material that issufficiently rigid to urge the expandable segments 206 of expandablesection 200 outwardly upon its insertion into longitudinal body passage12 and thereby transition expandable portion 200 from its normalcondition to its expanded condition.

Referring now to FIGS. 4 and 7, seal 400 is associated with proximal end302 of dilator element 300 and may be mounted thereto. Seal 400 definesan aperture 402 and is adapted to transition from a closed condition(FIG. 4) to an open condition (FIG. 7) upon the insertion of surgicalobject “I”. In the closed condition, aperture 402 defines a firstdimension “D_(S1)” of about 0 mm so as to substantially prevent theescape of any insufflation gas (not shown) therethrough in the absenceof surgical object “I”. Upon the insertion of surgical object “I”,aperture 402 is forced open, thereby transitioning seal 400 into theopen condition. In this condition, aperture 402 defines a seconddimension “D_(S2)” that substantially approximates the diameter “D₁” ofsurgical object “I” such that seal 400 forms a substantially fluid-tightseal with surgical object “I”, thereby substantially preventing theescape of any insufflation gas through seal 400. Surgical object “I”will generally define a diameter substantially within the range of about5 mm to about 12 mm. Accordingly, in the second condition, aperture 402will generally define a second dimension “D_(S2)” that is alsosubstantially within the range of about 5 mm to about 12 mm. However,the use of surgical objects having substantially larger and smallerdiameters is contemplated herein, as is a seal 400 with an aperture 402that is capable of accommodating such surgical objects.

Seal 400 may be formed of any suitable biocompatible material that is atleast semi-resilient in nature such that seal 400 may transition betweenthe closed and open conditions thereof. Seal 400 may be any seal orvalve suitable for the intended purpose of removably receiving asurgical object in sealed relation therewith, including but not beinglimited to a slit-valve or a zero closure valve.

The use and function of anchoring apparatus 1000 during the course of aminimally invasive procedure will now be discussed. Initially, theperitoneal cavity (not shown) is insufflated with a suitablebiocompatible gas such as, e.g., CO₂ gas, such that the cavity wall israised and lifted away from the internal organs and tissue housedtherein, providing greater access thereto. The insufflation may beperformed with an insufflation needle or similar device, as isconventional in the art. Either prior or subsequent to insufflation, anincision 14 is created in tissue “T”, the dimensions of which may bevaried dependent upon the nature of the surgical procedure.

Prior to the insertion of anchoring apparatus 1000 within incision 14,dilator element 300 is removed from body 10. Thereafter, the clinicianmay transition grip segment 100 from the first state (FIGS. 1-4) to thesecond state (FIG. 5) to facilitate the manual engagement thereof andthe insertion of body member 10. To realize this transition, the user atleast partially inverts grip segment 100 such that the outer surface 102exhibits a proximal curvature. Once in the second state, the clinicianmay more easily grasp grip segment 100, e.g. about peripheral flange106.

The distal end 206 of expandable section 200 is then inserted into andadvanced distally through incision 14. Optionally, the clinician mayrotate body 10, e.g. clockwise in the direction of arrows “B”, duringinsertion such that helical thread 210 facilitates the distaladvancement of expandable section 200. After expandable section 200 hasbeen completely inserted within the patient's tissue “T”, grip segment100 is returned to its first state such that peripheral flange 106 is inengagement with tissue “T”. Grip segment 100 may form a substantiallyvacuum seal with tissue “T”. (See FIGS. 6-7).

Subsequently, dilator element 300 is inserted through aperture 104 ingrip segment 100, into longitudinal body passage 202, distallytherethrough and into expandable section 200. During the distaladvancement of dilator element 300, its distal end 304 engages camsurfaces 208, thereby forcing the plurality of expandable segments 206outwardly and transitioning expandable section 200 from the normalcondition (FIG. 6) to the expanded condition (FIG. 7). As previouslydiscussed, in the normal condition, expandable section 200 defines afirst diameter “D₁” and in the expanded condition, expandable section200 defines a second, larger diameter “D₂”.

During the transition from the first condition to the second condition,expandable section 200 expands outwardly and exerts a force “F” upontissue “T” which dilates incision 14. Force “F” creates a correspondingbiasing force “F_(B)” within tissue “T” that attempts to close incision14. Forces “F” and “F_(B)” collaborate to secure and anchor expandablesection 200 within tissue “T” in a substantially fluid tight manner suchthat the escape of insufflation gas about anchoring apparatus 1000 issubstantially prevented. In addition, while inserted within tissue “T”,helical thread 210 is disposed distally, and perhaps proximally, oftissue “T”, thereby further securing the disposition and anchoring ofexpandable section 200 within tissue “T”.

Finally, surgical object “I” is inserted and advanced distally throughthe seal 400 associated with the proximal end 302 of dilator element300, through longitudinal dilator passage 308 and ultimately throughopening 310 at the distal end 304 of dilator element 300. Thereafter,the remainder of the surgical procedure may be carried out usingsurgical object “I”.

Upon completion of the surgical procedure, surgical object “I” iswithdrawn from dilator element 300 through seal 400. Dilator element 300is then withdrawn from expandable section 200 through longitudinal bodypassage 202 and through aperture 104 in grip segment 100. During thewithdrawal of dilator element 300, force “F” dissipates, as does thecorresponding biasing force “F_(B)” in tissue “T”, thereby facilitatingthe withdrawal of expandable section 200. The user may then transitiongrip segment 100 from the first state to the second state and withdrawbody member 10 from incision 14, optionally rotating body member 10during withdrawal. Incision 14 may then be closed.

Although the illustrative embodiments of the present disclosure havebeen described herein with reference to the accompanying drawings, theabove description, disclosure, and figures should not be construed aslimiting, but merely as exemplifications of particular embodiments. Itis to be understood, therefore, that the disclosure is not limited tothose precise embodiments, and that various other changes andmodifications may be effected therein by one skilled in the art withoutdeparting from the scope or spirit of the disclosure.

1. (canceled)
 2. A surgical apparatus, comprising: a body defining alongitudinal body passage, the body including: a grip segmenttransitionable between a first state in which the grip segment isdistally directed with respect to the longitudinal body passage and asecond state in which the grip segment is proximally directed withrespect to the longitudinal body passage; and an elongate segmentextending from the grip segment, the elongate segment transitionablebetween a first condition in which the elongate segment defines a firstdimension and a second condition in which the elongate segment defines asecond dimension different from the first dimension.
 3. The surgicalapparatus according to claim 2, wherein the grip segment has an outersurface defining an aperture.
 4. The surgical apparatus according toclaim 2, wherein the grip segment includes a peripheral flangeconfigured to establish a seal with tissue.
 5. The surgical apparatusaccording to claim 2, further comprising a dilator positionable withinthe longitudinal body passage of the body, the dilator dimensioned totransition the elongate segment from the first condition to the secondcondition.
 6. The surgical apparatus according to claim 5, wherein thedilator defines a longitudinal dilator passage for passage of an object.7. The surgical apparatus according to claim 5, wherein the dilatorincludes a seal.
 8. The surgical apparatus according to claim 5, whereinthe elongate segment includes an expandable member adapted to bedisplaced radially outwardly relative to a longitudinal axis of theelongate segment during insertion of the dilator within the longitudinalbody passage of the body.
 9. The surgical apparatus according to claim8, wherein the expandable member includes an internal cam surfaceconfigured to cooperate with the dilator to displace the expandablemember radially outward.
 10. A surgical method, comprising: providing abody including a grip segment transitionable between a first state inwhich the grip segment is distally directed with respect to alongitudinal axis of the body and a second state in which the gripsegment is proximally directed with respect to the longitudinal axis ofthe body and an elongate segment extending from the grip segment;positioning the grip segment in the second state; grasping the gripsegment and advancing at least a portion of the body within tissue toprovide access to an underlying surgical site; and transitioning thegrip segment from the second state to the first state.
 11. The methodaccording to claim 10, further comprising expanding the elongate segmentfrom a first dimension to a second dimension different from the firstdimension.
 12. The method according to claim 11, wherein expanding theelongate segment includes introducing a dilator at least partially intothe elongate segment of the body.
 13. The method according to claim 12,further comprising performing a surgical procedure by introducing asurgical object through a dilator passage of the dilator.
 14. The methodaccording to claim 10, further comprising establishing a seal between aperipheral segment of an outer surface of the grip segment and thetissue.
 15. The method according to claim 10, wherein positioning thegrip segment includes arranging the grip segment such that at least aportion of an outer surface of the grip segment curves proximally. 16.The method according to claim 10, wherein transitioning the grip segmentincludes arranging the grip segment such that at least a portion of theouter surface curves distally.
 17. The method according to claim 10,further comprising performing a surgical procedure through alongitudinal body passage of the body.